Serum Prestin and Otolin-1 Levels in Pilots of Helicopter-Based Emergency Medical Services: Potential Markers for Ear Injury

Piercarlo Minoretti; Andrés Santiago Sáez; Miryam Liaño Riera; Manuel Gómez Serrano; Ángel García Martín

doi:10.7759/cureus.55936

Serum Prestin and Otolin-1 Levels in Pilots of Helicopter-Based Emergency Medical Services: Potential Markers for Ear Injury

Cureus. 2024 Mar 11;16(3):e55936. doi: 10.7759/cureus.55936. eCollection 2024 Mar.

Authors

Piercarlo Minoretti¹, Andrés Santiago Sáez^{2

3}, Miryam Liaño Riera³, Manuel Gómez Serrano³, Ángel García Martín³

Affiliations

¹ Occupational Health, Studio Minoretti, Oggiono, ITA.
² Legal Medicine, Hospital Clinico San Carlos, Madrid, ESP.
³ Legal Medicine, Psychiatry, and Pathology, Complutense University of Madrid, Madrid, ESP.

Abstract

Introduction: Occupational noise exposure is a major public health concern, impacting a large workforce worldwide. In this study, we sought to evaluate the serum concentrations of prestin, a cochlear protein that diminishes following noise exposure, and otolin-1, a protein secreted into the bloodstream subsequent to inner ear damage, among three diverse professional categories, each exposed to varying degrees of noise. Helicopter emergency medical service (HEMS) pilots and construction workers were considered high-risk groups due to their elevated exposure to occupational noise, whereas office workers were regarded as a low-risk group, reflecting their comparatively minimal noise exposure.

Methods: The study sample included 60 males, encompassing helicopter pilots, construction laborers, and office workers (n=20, each). Recruitment occurred during standard occupational health visits, with all participants presenting normal clinical audiograms. Serum levels of prestin and otolin-1 were measured in duplicate using commercially available immunoassays and compared across the three professional categories.

Results: HEMS pilots had the lowest mean serum prestin level at 211±27 pg/mL, followed by construction workers at 234±29 pg/mL, and office workers at 269±42 pg/mL (p<0.001, one-way analysis of variance), with all inter-group differences statistically significant (p<0.05, Tukey's post hoc tests). For otolin-1, HEMS pilots showed the highest mean at 216±20 pg/mL, with construction workers at 196±22 pg/mL, and office workers at 181±20 pg/mL (p<0.001, one-way analysis of variance). Statistically significant differences were found between HEMS pilots and both other groups for otolin-1 levels (p<0.05, Tukey's post hoc tests), but not between construction workers and office workers.

Conclusions: Serum concentrations of prestin and otolin-1 may differ among healthy individuals according to their occupational noise exposure and have the potential to act as indicators of subclinical inner ear injury. To substantiate these preliminary observations, incorporating exposure assessment, especially via direct measurements of noise and vibration exposure, would markedly improve the reliability of our findings.

Keywords: biomarkers; construction laborers; helicopter pilots; inner ear; office workers; otolin-1; prestin.